SU579854A3 - Self-cleaning filter - Google Patents

Description

one

The invention relates to filtration processes, for example for the purification of liquids with self-cleaning filters.

A self-cleaning filter for cleaning fluid is known, comprising a housing with a central channel for introducing contaminated fluid, a row of established circle-on-filter discs separated by radial partitions into working chambers, and a shutter attached to the stem with actuator.

The disadvantages of the known device are the large dimensions of the filter, the power consumption and the complexity of its size.

In order to reduce the dimensions of the falter and simplify its operation, the actuator device of the obturator is made in the form of a double action hydraulic piston with end chambers and a working piston movably connected to the obturator shaft and equipped with a piston distribution device entering the end chambers, with the piston movingly fixed on the rod tutors

ring ps shn mv, alternately driven by the working piston,

FIG. 1 shows a filter, a general view in section; on 4ig. 2 - section A-A of FIG. 1} on 4IG. 3 - section bb FIG. one; in fig. 4 shows a section B-B of FIG. 3

The filter includes a series of filter disks 1 installed one above the other, divided by radial partitions into workers 1 (amaras 2 with outlet 3, inlet 4 in reversible cannon 5 for cleaning. Inlet 4 opens into a cup 6, through which dp flow is supplied 4 pptrovaniya, navrmer oil.

The rotary shutter 7 allows all inlets 4 to be closed in succession, thus causing the counter-current of the filter sheets of each working chamber to be cleaned. Moreover, the cleaning oil is directed to the dirt removal device, enclosed in the housing 8, into which it enters along the axial channel 9 in the stem O

Claims (1)

Filter discs are covered with a cap 11, which restricts the collector chamber 12 of the filtered oil, from where it is guided along channel 13 to the consumer. The rod 10 is brought into axial translational motion by the working piston 14 by means of the free wheel 15, which allows it to rotate in one direction only, thus ensuring the rotation of the obturator 7 in one direction, thanks to the stud 16, which enters the spiral groove 17 made in the axial passage 18 of the shutter, on which the piston rod slides, the working piston 14 moves in the chamber 19. Each side-piston experiences alternately pressure from (L of lubricated oil which is supplied through the channel 2O passes through the piston 14 and feeds the chamber 19 through the aisles 21 and through the openings 22 into which the switchgear 23 is placed, switching power from one side of the working piston to the other. The switchgear 23 is immersed by two ends into end chambers 24 and 25, filled with oil and closed by annular pistons 26, through which the rod Y slides. The annular piston 26 is mounted on the guide 27, which is supported on it by means of a spring 28, while the communication rods 29 passing through the working piston 14 are about It has guides 27. At the end of the stroke, the working piston 14 touches and pushes the guide 27, which immerses the annular piston 26, for example, into the chamber 24, whereas the opposite movement occurs in the chamber 25, as the guide 27 carries the annular piston 26 round protrusion. As a result, the fluid pressure increases in the chamber 24 n decreases in the chamber 25. At the same time, the piston 23 of the switchgear is pushed out of the chamber 24 and penetrates into the chamber 25, as a result of which the power supply of the chamber 19 is switched to the other side of the working piston 14. until the working piston 14 presses the annular piston 26 of the chamber 25. The piston 23 of the switchgear, which switches the power to one of the sides, also opens the output of the DO of the chamber 19 from the other side, and this output ved t to the exhaust manifold 31. The flush stream, which enters the casing 8, collects impurities that are deposited on the filter sheets 1x 32 and are held by the sheet 33, and the cleaned fluid returns to the common circuit through the channel 34. The filter sheets 32 that cover the chamber 35, into which the cleaned fluid is periodically tested by mechanical stress created by the rod 10 acting on the central holder 36 of the web 32, and a spring 37 acts on this holder. At this mechanical impulse the impurities bounce off and are pushed out by the flow from amers 35 during the switching of the cleaning chambers in countercurrent. during this period of switching, there is zero backflow pressure, since all filters are valid. Since the selection of impurities does not occur under the force of gravity, the filter can be mounted in any position, and since the impurities are in a separate housing, they can be easily withdrawn through the opening in the housing, even when the device is operating. A self-cleaning filter for cleaning a fluid, comprising a housing with a central channel for introducing contaminated fluid, a series of filter disks mounted one above another, separated by radial partitions into working chambers, and an obturator located inside the center channel connected to the actuator by means of a stem. that, in order to reduce the size of the filter and simplify its operation, the driving device of the obturator is designed as a double-acting hydraulic cylinder with end chambers and a working piston, movably connected to the rod, of the obturator and fitted with a piston distributor entering the end chambers, with the guide with annular pistons being movably fixed on the rod, alternately with annular pistons; driven by a working piston. Sources of information taken into account in the examination: 1. Patent of England No. 1091933, cl. At 01B, 11/22/67. 22